Paper from the AFRC 2016 conference titled Development of an Ultra-Low NOx Gaseous Fuel Burner for OTSG ApplicationsThe paper presents an overview of the development process used to design improvements to an Ultra-Low NOx gaseous fuel burner for once through steam generator (OTSG) applications. It discusses the use of Computational Fluid Dynamics (CFD) for the prediction of key performance metrics such as NOx emissions and vessel heat flux profiles and simplifications in CFD processing such as the use of steady state solvers and the use of reduced chemistry sets. Results of CFD modeling are compared with data collected from large scale combustion tests
Clean gas turbine combustion research has gained popularity in power generation and propulsion indus...
The paper describes the development process of a new Coen low NOx high performance burners and the t...
Reexamining conventional gas burner design may lead to NOx compliance for less than $3/kW. Extensive...
Paper from the AFRC 2016 conference titled Development of a Low NOx Burner for Combined Cycle Gas Tu...
Natural gas fired industrial burners are capable of achieving NOx emissions at or near SCR levels. ...
Paper from the AFRC 2018 conference titled Emission Characteristic Map and Optimization of NOx in 10...
This paper describes development process of a new ultra low NOx burner for industrial steam generato...
Paper from the AFRC 2015 conference titled Validation and Prediction of Ultra-Low NOx Burner Perform...
Paper from the AFRC 2014 conference titled Evaluating the NOx Performance of a Steam Generator for H...
A commercially available computational fluid dynamics code was employed to evaluate the effects of N...
There is an increasing demand for ultra-low NOx burners for all types of heating applications. Gas-f...
As NOx emission regulations continue to become more stringent, the need to retrofit existing furnace...
A low-emissions power generator comprising a solid oxide fuel cell coupled to a gas turbine has been...
As a furnace designer, Technip is faced with the challenge to meet ultra-low NOx emissions when desi...
Paper from the AFRC 2016 conference titled Numerical Analysis of NO and CO in a Flameless BurnerComb...
Clean gas turbine combustion research has gained popularity in power generation and propulsion indus...
The paper describes the development process of a new Coen low NOx high performance burners and the t...
Reexamining conventional gas burner design may lead to NOx compliance for less than $3/kW. Extensive...
Paper from the AFRC 2016 conference titled Development of a Low NOx Burner for Combined Cycle Gas Tu...
Natural gas fired industrial burners are capable of achieving NOx emissions at or near SCR levels. ...
Paper from the AFRC 2018 conference titled Emission Characteristic Map and Optimization of NOx in 10...
This paper describes development process of a new ultra low NOx burner for industrial steam generato...
Paper from the AFRC 2015 conference titled Validation and Prediction of Ultra-Low NOx Burner Perform...
Paper from the AFRC 2014 conference titled Evaluating the NOx Performance of a Steam Generator for H...
A commercially available computational fluid dynamics code was employed to evaluate the effects of N...
There is an increasing demand for ultra-low NOx burners for all types of heating applications. Gas-f...
As NOx emission regulations continue to become more stringent, the need to retrofit existing furnace...
A low-emissions power generator comprising a solid oxide fuel cell coupled to a gas turbine has been...
As a furnace designer, Technip is faced with the challenge to meet ultra-low NOx emissions when desi...
Paper from the AFRC 2016 conference titled Numerical Analysis of NO and CO in a Flameless BurnerComb...
Clean gas turbine combustion research has gained popularity in power generation and propulsion indus...
The paper describes the development process of a new Coen low NOx high performance burners and the t...
Reexamining conventional gas burner design may lead to NOx compliance for less than $3/kW. Extensive...